Change in reactions of visual cortex neurons to light flash upon hypothalamic and reticular stimulation

Abstract

The effect of electrical stimulation of the hypothalamic positive reinforcement zone (PRZ), the neutral hypothalamic zone (NZ), and the reticular formation (RF), of the midbrain on the impulse activity of single neurons of the visual cortex evoked by light flashes was studied in unanesthetized and uncurarized white rats. Poststimulus histograms of the neurons's responses were compared. Under the influence of stimulation the evoked activity of the neurons which responded to light changed in a majority of them (from 63% for the NZ to 82% for the RF). Qualitative differences were found in the effects of PRZ and RF stimulation. The effects of PRZ stimulation consisted in the invariability or in a decrease in the frequency of the neuron's discharge comprising the short-latent response, and an increase in the frequency of the discharges in the long-latent response ("positive-motivation" type). The effects of RF stimulation were manifested in intensification of the neuronal discharges in the short-latent and a decrease in the discharges in the long-latent response ("reticular" type). The responses of a considerable number of the neurons changed to the "combined" type. The data obtained indicates the different natures and mechanisms of the ascending activating effects caused by stimulation of the PRZ and the RF and which brings about positive nonspecific reinforcements. These effects, which are manifested differently in different periods of the neuron's working cycle cannot be explained by "energizing" or "tonus" concepts; their explanation must be sought for in informational (systemic) concepts.